pro_details

SKY85337-11

2.4 GHz, 1024 QAM WLAN Front-End Module

The SKY85337-11 is a complete 2.4 GHz 802.11ax WLAN RF front-end module (FEM). The device provides all the functionality of a fully matched power amplifier (PA), power detector, low-noise amplifier (LNA), and single-pole, double-throw (SPDT) switch.

The SKY85337-11 is a complete 2.4 GHz 802.11ax WLAN RF front-end module (FEM). The device provides all the functionality of a fully matched power amplifier (PA), power detector, low-noise amplifier (LNA), and single-pole, double-throw (SPDT) switch. The SKY85337-11 provides a complete 2.4 GHz WLAN RF solution from the output of the transceiver to the antenna, and from the antenna to the input of the transceiver. The LNA increases the receive sensitivity of embedded solutions to improve range or to overcome the insertion loss of cellular filters (often included for mobile applications).

The SKY85337-11 also includes a transmitter high dynamic-range logarithmic power detector with 20 dB of dynamic range, and a digital enable control for transmitter power ramp on/off control. The device is provided in an ultra-compact, 16-pin 3 x 3 mm laminate package.

Features

    • Integrated high-performance 2.4 GHz PA, harmonic filter, LNA with bypass, and T/R switch
    • Fully-matched input and output
    • LNA with integrated bypass mode
    • High performance SPDT switch to support WiFi functions
    • Integrated positive slope power detector
    • Transmit gain: 32 dB
    • Receive gain: 14 dB
    • Small 16-pin, 3 × 3 mm laminate package (MSL3, 260 °C per JEDEC J-STD-020)

Images & Diagrams

Specifications

    • Frequency (GHz) Min.
    • 2.4
    • Frequency (GHz) Max.
    • 2.5
    • 802.11 WLAN Standard
    • b/g/n/ac/ax
    • Antenna Ports
    • 1
    • Architecture
    • 1024 QAM, Mid Power Front End Module
    • Typ. Tx Gain (dB)
    • 32
    • Package
    • LGA, 16-pin
    • Package (mm)
    • 3 x 3

Skyworks uses cookies to analyze website traffic, deliver customized experiences, and advertise. Learn more, including how to manage your preferences, in our Website Privacy Policy. By using our website you agree to our use of cookies.